- The strong connection of the life cycle of fire salamanders with underground shelters
- Observing of population size, survival, recapture probability of wintering populations
- Karstic areas can induce group wintering in the fire salamander
- Regular visits important for reliable estimate of the number of wintering individuals
- Higher heterogeneity of habitat causes greater underestimating of the wintering population
The fire salamander (Salamandra salamandra) has been repeatedly noted to occur in natural and artificial subterranean systems. Despite the obvious connection of this species with underground shelters, their level of dependence and importance to the species is still not fully understood. In this study, we carried out long-term monitoring based on the capture-mark-recapture method in two wintering populations aggregated in extensive underground habitats. Using the POPAN model we found the population size in a natural shelter to be more than twice that of an artificial underground shelter. Survival and recapture probabilities calculated using the Cormack-Jolly-Seber model were very constant over time, with higher survival values in males than in females and juveniles, though in terms of recapture probability, the opposite situation was recorded. In addition, survival probability obtained from Cormack-Jolly-Seber model was higher than survival from POPAN model. The observed bigger population size and the lower recapture rate in the natural cave was probably a reflection of habitat complexity. Our study showed that regular visits are needed to detect the true significance of underground shelters for fire salamanders. The presence of larvae was recorded in both wintering sites, especially in bodies of water near the entrance. On the basis of previous and our observations we incline to the view, that karst areas can induce not only laying in underground shelters but also group wintering in this species. Our study highlights the strong connection of the life cycle of fire salamanders with underground shelters and their essential importance for the persistence of some populations during unfavourable conditions and breeding activity. In addition, the study introduces the POPAN and Cormac-Jolly-Seber models for estimating of population size, survival and recapture probability in wintering populations of the species, which could provide important information for species conservation.
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Balogová, Monika; Dušan Jelić; Michaela Kyselová; and Marcel Uhrin.
Subterranean systems provide a suitable overwintering habitat for Salamandra salamandra.
International Journal of Speleology,
Available at: https://scholarcommons.usf.edu/ijs/vol46/iss3/1